Axle and wheel aligner



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May 14, 1935. M. SCHMIDT AXLE AND WHEEL ALIGNER IFiled July 14, 1932 4 Sheets-Sheet l 14 1935 M. SCHMIDT AXLE AND WHEEL ALIGNER Filed July 14, 1952 4 Sheets-Sheet u?,

' ATTORNEY.

"May 14, 11935. M. sCHMlDT 2,000,993

AXLE AND WHEEL ALIGNER Filed July 14, 1932 4 Sheets-Sheet 5 al y MWA.

M. SCHMIDT May 14, 1935.

EL ALIGNER AXLE AND WHE Filed July 14, 1932 4 Sheets-Sheet INVENToR.

ATTORNEY.

Patented May 14, 1935 PATENT OFFICE AXLE AND WHEEL ALllGNER Michael Schmidt, `Function City, Kans., assigner of one-half to C. W. Wilson, Kansas City,

"Application July 14, i932, serial No. 622,443

6 Claims.

apparatus and more particularly to a machine `of that character for gauging the accuracy of Wheel and axle alignments of vehicles.

Particularly in the case of the front or steering Wheels of an automobile, truck, or the like, it is imperative that the various cardinal positions of the wheels relative to each other, or to the vehicle as determined at the factory for most eicient operation should be maintained throughout the life of the vehicle.

Unless the practice is followed of having such alignments periodically checked and more especially` to have thorough tests made after accif dents or excessive road shocks, rapid wear of the tires and steering mechanism is apt to follow and possibility of such serious misalignmentof parts as to eventually cause an accident is likely to be present.

The cardinal positions or adjustments for Which-wheels are tested are commonly characterized as camber or pitch, toe-in, caster angle and turning radius, and while various machines have heretofore been devised for ascertainingthe accuracy of one or more of these positions, those of whichoI am aware do not embody means for checking all of the adjustments.`

It is, therefore, the principal object of myinvention to provide a machine whereby every positionof `the wheel, as above characterised, and the alignment of `other members oi a vehicle can be readily and accurately tested so that proper adjustment of these members, as intended by themanufacturer, is assured. f

A `further object of the invention is to provide a gauging apparatus that can be securely connected in operable relation' with the front or rear axle of a ear without requiring alterations of the vehicle and wherewithevery necessary test for misalignment of members can'be made without requiring disconnection of the apparatus from the vehicle.

Another object of the invention is to provide an aligning machine which, when connected in functional position on the front end of a vehicle,

will allow ample space for performing bending and like operations on thefiront axle.

In accomplishing these and other objects of myinvention, I have provided 'improveddetails of structure, the preferred form of which is illustrated in the accompanying drawings, wherein:

Fig. l is a perspective view of an automobile with wheel aligning apparatus embodying my invention shown associated therewith in functional relation.

1 Fig. 2 is a plan view of the aligning machine applied to the front Wheels oi a vehicle, one of the Wheels being shown in cross section.

Fig. 3 is a side elevational View illustrating the process of aligning a table member to parallel (Cl. B3n-52.03)

relation with a line extending from the center of the rear to the center of the front wheel spindle. Y

Fig. fl is a perspective view of the` turning radius and caster angle assembly mounted on a wheel and disclosing the initial position of the members when testing a front axle for caster angle.

Fig. 5 is a similar perspective view showing th final position of the members when determining the caster angle of the front axle.

' Fig. 6 is a perspectivefview of a rear wheel of a vehicle provided with a bracket for supporting the rear end of a gauge bar.

vlig. '7 is a front elevational view of a Wheel aligning apparatus operably connected therewith for testing the toe-in and camber of the Wheel.

Fig. 8 is a cross sectional view of indicating mechanism for the turning radius and caster angle assembly.`

Fig. 9 is a perspective view of members of the camber and toe-in testing apparatus shown in disassembled but related condition.

Fig. lo is a longitudinal central section showing the parts oi Fig. 9 in assembled condition.

Fig. ll is a sectional View on the line lI-I I, Fig. 2.

Referring more in detail to the drawings:

l designates an automobile including front and rear axles i! and 3, wheel spindles 4 on the front axle, and front Wheels 5 mounted on the spindles and having the usual rims 0.

My apparatus for aligning various membersv of a vehicle including particularly the front axle 2, the spindles fl and the front wheels 5, comprises an assembly generally designated 'i supported on a truck or dolly t, preferably triangular in shape, as particularly shown in Fig. 2. The frame of the truck may be constructed of any material suitable for supplying the necessary strength and is `movably mounted on casters 9, a container or pan it being preferably provided on the upper face'of the frame for receiving tools used in making the necessary adjustments.

The converging end of the frame is provided with a bracket i2 through which al rocker pin I3 is transverselyextended forpivotally supporting a trunnion bar Ml centrally mounted on the pin and having end portions i5 extending parallel to the rear edge of the truck. The ends of the trunnion bar incline upwardly and fixed on their extreme outer ends are trunnion brackets I6 having aligned bearing portions il for receiving a lon- `git-udinal shaft i8 of such length as to extend considerably beyond the sides of the vehicle when positioned transversely thereunder.

A second longitudinal shaft l0, parallel to the shaft i8, is rigidly connected therewith by bracketsl 2t arranged at spaced intervals along the shafts as best shown in Fig. 2. The brackets preferably include split sleeves clamped on the shafts by bolts 22 extended through end flanges 23 of the sleeves to securely connect the shafts.

Provided on the brackets adjacent the sides of the truck are arms 2G secured as by bolts 25 threaded into rib portions 26 of the brackets and having opposite ends anchored by springs 2'! to the truck thereby serving to maintain a substantial balance of the shafts and equipment mounted thereon as will later be apparent.

Slidably mounted on the shafts adjacent the inner ends of the outer brackets 2li are larms 28 provided at one end with bearing portions 29 and 3Q for respectively receiving the shafts i8 and IS and split similarly to the brackets 25 so that the bearing portions may be drawn to snug engagement with the shafts by bolts 32 extended through the iianges 33 of the portions 3Q.

It is desirable to adjust the arms longitudinally on the shafts in order to adapt the apparatus to vehicles of different width and for this purpose, an adjusting screw 35 is threadedly engaged with a bearing nut 35 secured to the rib 2E of the clamping bracket and with a similar nut on a corresponding rib of the arm, the end of the screw engaging one rib being threaded oppositely to that engaging the other rib, so that rotation of the screw by means such as a wrench 36 mounted on the outer squared end 55'! of the screw will move the arm longitudinally on the shafts. Provided on the ends of arms 28 opposite the parallel shafts are bearing portions 38 for each receiving a support or trunnion bar 39 in parallel relation to the paired shafts, the bearing 38 being also split and provided with bolts 4Q for clampinor the arm to the spindle in longitudinally adjusted position.

The trunnion bar preferably comprises a sleeve 42 for slidably receiving a trunnion or shaft #i3 terminating at one end in a bearing point 44 and provided at its opposite end with a reduced portion 45 to reserve a space within the sleeve for seating a spring 45 having one end engaging a shoulder 4'! formed by reducing the end of the spindle, and its opposite end bearing against a guide nut 4S threaded into the outer end of the sleeve as indicated at 49. The spring thus serves to urge the spindle outwardly from the inner end of the sleeve but such movement is limited by a nut 5D threaded on the extreme outer end 52 of the reduced portion 45.

In order to operably connect the trunnion 53 with the wheel spindle 4, when it is desired to employ apparatus for determining the turning radius and caster of the wheels, a collar 53 is threaded on the wheel spindle and an extension stud 54 is provided at one end with a threaded portion 55 engaging the collar and terminating in a bearing point 55 adapted to sea-t in a lathe center o-r bearing 5'! at the central terminus of the wheel spindle to insure concentric alignment of the stud and spindle. The opposite un'- threaded end of the stud is provided with a bearing socket 58 for seating the bearing end 4f! of the shaft 43 thereby tending to hold these members in axial alignment.

The spring actuated trunnions 43 compensate for varying distances between spindle centers when the wheels are turned in either direction away from straight ahead, and also prevent accidental detachment of the aligning machine from the vehicle due to variations in these distances.

The apparatus thus far described, when operably connected with a pair of wheel spindles, serves as a common support for the various testing-mechanisms and the axes of the trunnions constitute a base line from which angularity of the spindles is determined now to be successively referred to in detail.

Inasniuch as the turning radius is commonly the rst test made, the apparatus for accomplishing this purpose will first be described and includes a clamp 59 mounted on each spindle extension stud and preferably having a lower slotted end 50 clamped to the stud by a cross bolt 6|.

The upper end of the clamp is likewise slotte as shown at 62 to provide a recess for adjustably receiving a lateral arm 63 clamped therein by a bolt 65 extending transversely through the slot. The projecting end of the arm is preferably recessed as at 65 for seating a plate or table secured in any suitable manner thereto and having an arcuate outer edge 6'! continuing along Wings 68 extended beyond the inner edge 69 of the table. To simplify the process of testing the turning radius the table is calibrated along its arcuate edge as shown at '10, the calibrations being numbered in successive order from zero at the center of the table toward each wing.

Provided in the extended portions of the table as clearly shown in Fig. 2, are openings l2 spaced equidistant from the Zero calibrationfor threadedly receiving gauge pins 'I3 having headed portions '.4 to facilitate threading of the pins in the table.

Further equipment provided for determining the turning radius of vehicle wheels includes a bar 'l5 having a bearing portion 16 secured by a set screw 7'! to an extension stud 18 which in turn is fastened by a collar 'i9 to the spindle of the rear axle of the vehicle in exactly the saine manner as the collar 53 previously described. The bar 'l5 is provided with gauge pins 3E! adjustably threaded into the bar at points spaced from the center of the bearing portion a distance equal to the radius of the wheel including the tire, and may serve for checking the transverse relation of the wheel to the wheel spindle as later described.

An upward projection 82 is fixed to the bar directly above the bearing portion and in central alignment therewith and is provided in its upper end with a slot 83 for seating the web 84 of a gauge bar 85 preferably T-shaped in cross section and of sufcient length to extend from the rear wheel to and over the table (if) to serve as a straight edge for aligning the table parallel to a longitudinal line extending from the center of the rear axle to the center of the front axle spindle. The bottom of the slot 83 in the projection 82 should be the same height above the axis of the rear wheel as the top of the table 65 is above the axis of the front Wheel spindle.

A final element devised for use in making the rst or turning radius test comprises a. substantially perpendicular gauge rod 86 secured by a suitable clamp 8'! to a front fender 8B of the vehicle and positioned perpendicular-ly tc the straight edge 85. The lower end of the rod is preferably reduced in diameter as shown at 89 and may be provided with a handle El@ to facilitate moving the rod for adjustments.

The second test ordinarily made in aligning vehicle wheels is to determine their caster angle and the mechanism for accomplishing this purpose includes in addition to the table 66 previously described, a rail 92 preferably having a grooved lower face 93 for resting on the upper ends of the gauge pins 13 secured in the arcuate plate.

A bracket arm 94 having a lateral'base flange 95 for seating on the bar 92 is formed with an upwardly extending wing 96, the bracket and wing being respectively provided with transverse openings 91 and B3 on a central vertical line of the bracket arm.

Carried in the opening @l is a shaft 99 for rotatably and concentrically mounting a gear segment lill) having gear teeth it?! in its upper edges. A pinion ltd in meshing relation with the rack is rotatably mounted o-n a shalt id@ fixed in the opening S8 of the bracket wing, the pinion having a reduced neck Idil whereon is clamped, by a screw it or the like, an indicator lill cooperative with a dial Ii integral with and ciiset from a supporting bar lili) having openings lill and Si? for respectively receiving the shafts te and EN. As will be apparent, the supporting bar H35 and the bracket arm Sli may be xed to the shafts Se and iM by keys H3 or the like for operably retaining the gear segment and pinion in assembled relation with the bracket Threaded into an opening il@ provided in the rearing portion of the gear segment its is pivot or cap screw il for pivotally mounting a bar lili cooperative with the bar et and o sub stantially the same length. The cooperating bar f is provided adjacent to its ends with gauge ill similar to the gauge pins it and adapted to rest on the extensions of the table as shown in Figs. 4 and 5.

The dial it is preferably semicircular in shape and is suitably calibrated for indicating the caster angle of a wheel tested with the foregoing mechanism in a manner later to be described.

`For determining the pitch or cainber of a vehicle wheel, I have provided a gauge :mechanisrn H9 including a stationary gauge member or measuring bar comprising an annular mounting member V22 having lateral arms its "provided with longitudinal seats 2li for adjustably receiving bars or meas ring arms E held in the seats by means such as the heads or' screws 126. Y

Fixed to or formed integrally with the arms oi the mounting member are lateral lugs i227 having elongated openings it for receiving bolts 29 extended transversely through the openings and through one end or" links itt having opposite ends pivotally connected by bolts 32 to clamps or anchors 33 constructed of any suitable shape for lockingly engaging a wheel rim.

As will be evident, the mounting member should be secured to a wheel rim in concentric relation therewith and, in order to facilitateadjustinent of the measuring arms |25 to correspond to the ldiameter `of a wheel, gauge points i3@ are adjustably mounted in the arms and a cooperating gauge or stop ist is preferably clamped on the longitudinal bar lil and is gradun ated and numbered'as indicated at its to correspond with the diameters oi various standard sized tires so that by noting the sise designated on a tire the arm may be adjusted to bring the gauge point into alignment with corresponding indicia on the gauge, the object of wl'iicn will later be disclosed.

Rotatably mounted on the sleeve 2 and located near the inner end of the bearing portion 33 is a bearing bracket l'l comprising a part of the gauge mechanism HS and provided with a fiat Aface 38 having a threaded socket i3d centrally located therein to receive a cap screw im Jfor clamping a movable gauge member or a pivoting arm 142 to the bracket.

The arm is preferably provided with clonm gated openings M3 and with related recessed portions its or increased width to seat extension members itil adjustably secured to the arm by bolts openings and through apertures in the extension members, wing nuts it being threaded on the boltsto facilitate adjustment of the extensions relative to the arm. Fo 1med on the extreme outer ends of each extension is a post M9 having a transverse internally threaded opening li for receiving a train or gauge point i522 locked in adjusted position in the post by a lock nut 53, the length of the arms being determined by the gauge E35 in the same manner as explained ier adjusting the extensions its.

It will thus be obvious that the gauge points in the extensions Edd are adapted to abut the points iid'in the members 25 when the bearing bracket moved iongitudinally on the support Sii toward the vehicle wheel and because of the pivotal connection between the arm i252 and the bearing bracket, the arm will pivot on the .bracket in corresponding parallel relation to the inembers tt provided the gauge points are adjusted evenly in their respective extensions.

In order to accurately determine the angular relation between the wheel spindle and the base line extending through the central termini of the spindles, an elongated side or extension wall 54 parallel to and opposite the face l38 is formed on the bearing bracket for supporting gauging mechanisrn and is provided with a bearing opening 55 for rotatably receiving a shaft 56 carrying a pinion il on its lower end which in turn is meshed with an idler pinion itt xed on the lower end ci a shaft i553 rotatably mounted in an opening ld adjacent and parallel to the bearing opening ii. A helical spring iti is mounted on the shaft tt with its opposite ends respectively an chored to the pinion itil and to the bearing bracket to eliminate back lash between the pinions and a gear segment G62 formed on the upper tace of the le?! for meshing engagement with the idler pinion and having an arcuate inner edge it@ adapted to engage and serve as a bearing for the outer periphery oi the bearing bracket. The pinion itil of less width than the idler pinion and meshing with only the upper portion thereof is thus prevented from engaging the teeth or the gear segment.

The upper end of the shaft 59 is counterbored and internally threaded for receiving a cap screw iifl to secure the shaft to the bearing bracket and a dial plate [S5 is xed to the Wall L54 of the bracket by screws or the like i6@ and is further provided with an opening it? oi sufficient diam-- eter to receive the head of the cap screw to avoid the presence of projections on the outer face of the dial. Another aperture M58 aligned with the bearing opening 455 is of suicently large diameter to snugly receive a depending boss it@ formed on an indicater lill having a hand N2, the indicator being preferably slit longitudinally as shown at H3 and beingclarnped on the shaft H55 by a screw IM.

While the gauging apparatus thus far described will serve to indicate in degrees, by means oi graduations Vit on the dial, the amount of camber or toe-in of a wheel it is desirable to also deterl niine such angularity in inches since the factory specications are commonly given in inches and for this reason I have provided further indicating means including a second dial ll located on the end oi the extension wall opposite the dial |35 and having edge iianges l'i for slidably engaging T-sots ll'S formed in a recessed track lzl oi extension wall.

A socket lill formed in the base of the recess is provided to receive a nut 532 secured by inea-ns such as a cap screw l83 to the inner face of the second dial and an adjusting bolt 85 threaded into the nut is held against longitudinal movement in the socket by spaced collars 95 engaging opposite faces or a keeper plate 5&3 fixed to the corresponding end of the bearing bracket.

Thus by rotating the adjusting bolt, the second dial may be moved outwardly from the bearing bracket to correspond to variations in the diameters of vehicle wheels, a slot ll of the second dial cooperating with a gauge point 538 fixed on the face of the elongated wall and sliolabln in the slot to indicate, by means of indicia 58S provided on the second dial along opposite sides of the slot, the respective diameter of a wheel.

The second dial is further provided along its arcuate outer edge ldd with calibrations and a needle la adjustably and frictionally retained in a groove ld of the indicator' i'itl extends in a direction opposite to the hand l 'l2 for cooperating with said calibrations to designate the inches or portions thereof of the amount of toe-in or camber of a wheel. Y

Assuming apparatus to be constructed as described, the procedure for making the several tests to ascertain the aligning relation of wheels and axles is as follows:

To test the accuracy of the turning radius of the front wheels it is necessary to first adjust the arcuate table to a common center with the axis of the king or steeringr knuckle pin connecting the wheel spindle with the axle whereupon the clamping bolt iii is loosened so that the bracket 5S can be turned on the extension stud. A bar i5 is then secured in operable position to the spindle of a complementary rear as clearly shown in Fig. 3 and a rail or straight edge is mounted in the notch of the projecting stud on said oar with its forward end resting flatly on the table S6. The clamping bolt is next tightened to secure the table in xed relation on the extension stud and the straight edge is removed.

The gauge rod S5 is thereafter secured by means of its bracket to the front fender of the vehicle and in perpendicular relation to the table with its lower reduced end located directly above the center or the zero indicia on the table, it being of course necessary, when thus positioning the gauge rod, to have the iront and rear wheels in direct alignment.

By then turning the steering wheel in one direction to its limit and noting the indicia of the table aligning with the gauge rod 85, the turning radius in one direction can be ascertained and by moving the steering wheel to its limit in the opposite direction the consequent turning radius can likewise be determined, the relative turning radii oi the wheels, if correctly adjusted, being the same.

For determining the caster angle of a wheel the steering wheel is again turned in one direction until one of the tram points 'i3 registers with the gauge rod 855. This tram point is next adjusted in the table to a height corresponding to the lower end of the rod, whereupon the steering wheel is turned in a reverse direction and the other tram point is adjusted in like manner relative to the end of the gauge rod. Care should be exercised to thereafter avoid disturbing the adjustment of the tram points.

The grooved bar t2 is next positioned on the spaced points 'i3 as shown in Fig. 4 and the bracket arm with its associated bar I i6 is mounted on the grooved bar. The downwardly extending tram points iii' of the cooperating bar are then adjusted with relation to the table until the indicator it? is located in central position over the dial m8 at which point the bars will be parallel to each other.

The bracket arm with its entire assembly is next raised from the grooved bar and the cooperating bar HG is turned lill) degrees whereupon the assembly again placed on the grooved bar assumes a position similar to that disclosed in 5 to accurately indicate the caster angle ci the king pin and wheel connected with the pin, by means of the wheel or steering knuckle spindle. order to obtain readings with a .-.reater degree of accuracy, it is desirable to remove the weight of the vehicle from the front wheels while r cking the above tests.

when prepar g to ascertain the amount of camber or pitch of a wheel the iront axle of the vehicle is preferably elevated above the oor and the front wheels are mounted on suitable supporting blocks to provide greater working clearance, it being desirable to have the weight of the iront end of the vehicle rest on the wheels so that ial position of the wheels relative to the t, ll be assured.

The measu g bar or stationary gauge mernber E2G is rigidly clamped to a wheel rim and me position of the gauge points are checked with the stop E35, so that the gauge points indicate a piane at right angles to the axis of the wheel spindles. Each arm is then adjusted longitudinally to align its gauge point with the number on the gauge or stop corresponding to the diarneter of the wheel indicated by the numerals printed on the tire.

Thereafter the movable gauge member H32 is turned on its support to successively align the gauge points of its arms with the stop E35 for lateral adjustment of its points to abut the stop to indicate a plane at right angles to the base line and for longitudinal adjustment of its arms to correspond in length to the arms i25. By turning the gauge members to a vertical position and sliding the movable gauge member longitudinally en the supporting sleeve until its pair of gauge points abut the pair of points on the stationary gauge member, the angular relationship between said plane which is the amount of camber or pitch will be instantly indicated in both degrees and inches on the respective dials at the ends of the bearing bracket.

It will be apparent that in order to determine the amount of toe-in of the wheel, it is necessary only to rotate the wheel degrees and to thereafter rotate the arm E42 the same number of degrees and move it into abutment with the gauge points or the measuring bar H29 which will result in movement of the indicator over the dial in exactly the same manner as when testing the wheel cainber.

From the foregoing, it will be apparent that each operation necessary for determining the several relative positions or" the front wheels can be made 'without disassembling any member of the aligning machine from the supporting frame, thereby materially reducing the amount of time, as well as the effort required for making the necessary tests.

it should be noted that te dolly with its longitudinal support and trunnion bars may be po- ICC CIJ

sitioned to the front or rear of either the front or rear wheels of a vehicle.

By applying the machine to the rear wheel axle shafts the rear wheels can be checked for parallelism to each other with the same mechanism used for checking the camber or toe-in of the iront wheels.

Since all gauging is done mechanically no levelled licor is required to obtain accurate gauging nor is it necessary to use plumbs or levels on or with the aligning machine. Furthermore, wheels, rims, hub or tires that are out oi true cannot affect the accuracy of the gauging mechanisms for the reason that these mechanisms are operably connected with the Wheel spindles.

What I claim and desire to secure by Letters Patent is:

1. In an apparatus for determining angularity oi the wheel spindles oi ra vehicle, a pair of trunnions, means for supporting the trunnions in alignment with the central termini oi the spindles to establish a base line from which angularity of the spindles is determined, a gauge bar, means supporting the gauge bar in fixed transverse relation on a wheel carried by one oi the spindles, gauge points adjustably mounted on the ends oi the gauge bar, a stop member on the iirst named supporting means, by which the gauge points are adjusted to indicate a plane at right angles to the axis of the Wheel spindle, a gauge means mounted on the trunnion adjacent said gauge bar to indicate a plane at right angles to said base line, and means associated with said gauge means for indicating angular relationship of said planes.

2. In an apparatus for determining angularity of the Wheel spindles of a vehicle, a pair of trunnions, means for supporting the trunnions in alignment with the central termini of said spindles to establish a base line from which angularity of said spindles is determined, a gauge bar, means supporting the gauge bar in iixed transverse relation on` a wheel carried by one of the spindles, gauge points adjustably mounted on the ends of the gauge bar, a stop member on the trunnion supporting means by which the gauge points are adjusted to indicate a plane at right angles to the axis of the wheel spindles, a second gauge bar, means for mounting the second named gauge bar on the trunnion adjacent the iirst named gauge bar, gauge points adiustably mounted on the last named gauge bar for similarly indicating a plane at right angles to said base line, and means associated with one of said bars for indicating angular relationship or" said planes.

3. In an apparatus for determining angularity of the wheel spindles of a vehicle, gauge means, means supporting the gauge means in hired relation to one of said spindles for indicating a plane at right angles tothe axis of said spindle, a dolly, a trunnion supporting member, means pivotally mounting the trunnion supporting member on the dolly, a pair of trunnions on said supporting member for engaging said spindles in alignment with .the central termini of said spindles to establish a base line from which angularity of the spindles is determined, a second gauge means for normally indicating a plane at right angles to said base line, means for normally mounting said last named gauge means on the trunnion adjacent said rst named gauge means whereby said gauge means is angularly movable from said normal position into contact with the rst named gauge means, and means associated with the last named gauge means for indicating angularity of said movement and the angular relationship between said planes.

Ll. In an apparatus for determining angularity of the Wheel spindles of a vehicle, a pair of trunnions, means for mounting the trunnions in alignment with the central termini of said spindles to establish a base line from which angularity of said spindles is measured, a gauge bar, means supporting the gauge bar in xed transverse relation on a Wheel carried by one of the spindles, a second gauge bar, a support for the second named gauge bar on the trunnion adjacent the irst` named gauge bar, a pair of gauge points for each bar, means mounting the gauge points on the respective bars for movement to indicate planes right angles to the axis of said spindle and to the base line respectively and for spacing said points in correspondence to the diameter of a wheel on said spindle, a scale slidably mounted on the support for movement to androm said axial mounting to position the scale in corresponding relation to the diameter of said Wheel, an adjustable indicator pivotally mounted on the support and movable over said scale, and means connecting said indicator with the last named gauge means for moving the indicator relatively to said scale to indicate angularity of movement of the last named gauge means on the scale in inches at the wheel circumference.

5. In an apparatus for determining anguiarity ci the wheel spindles of a vehicle, a pair of trunnions, centering members yieldingly mounted in said trunnions, means for mounting the trunnions with the centering members engaging lathe centers in said spindles to establish a base line from which angularity of the spindles is determined, a gauge bar, means supporting the gauge bar in iixed transverse relation on a wheel carried by one of the spindles, gauge points adjustably mounted on the ends of the gauge bar to indicate a plane at right angles to the axis of the wheel spindles, a gauge means mounted on the trunnion adjacent said gauge to indicate a plane at right angles to said base line, and means assoelated with said gauge means i or indicating angularity between said planes.

6. In an apparatus for determining angularity oi the wheel spindles of a vehicle, gauge means, means supporting the gauge means in iixed relation to one of said spindles for indicating a plane at right angles to the axis of said spindle, a dolly, a trunnion supporting member, means yiel-dingly mounting the trunnion supporting member on the dolly, a pair of trunnions on said supporting member for engaging said spindles in alignment with the central termini of said spindle to establish av base line from which angularity of the spindles is determined, a second gauge means for normally indicating a plane at right angles to said base line, means for normally mounting said last named gauge means on the trunnion adjacent said first named gauge means whereby said gauge means is angularly movable from said normal position into contact with the rst named gauge means, and means associated with the last named gauge means for indicating angularity oi said movement and the angular relationship between said planes.

MICHAEL SCHMIDT. 

